WebSVN – f9daq – //cvi/instr/AitSipmDAQ/AitGui.c

#include <formatio.h>
#include <cvirte.h>
#include <userint.h>
#include "AitGui.h"
#include "XYSCAN.h"
#include <stdbool.h>
#include "AitInterface.h"
#include "AitMduManager_DEF.h"
#include "H1D.h"
#include "H2D.h"
#include "H3D.h"
typedef unsigned short ushort;
typedef unsigned int uint;
static int ait;
static int xyscan;
//#define MIKRO
#ifdef MIKRO
#include "MIKRO.h"
#endif
static int daq_on;
static int plothandle[4]= {0,0,0, 0};
static int tfID;
static int controlID;
static int verbose;
#define MAX_THREADS 10
static CmtThreadPoolHandle poolHandle = 0;
/*
x: 140000 280000
*/
//**************************** missing declarations in the library
char strbuf[0xFF];
int gLog=0;
int printf(const char *format, ...) {
va_list aptr;
int ret;
FILE *flog;
va_start(aptr, format);
ret = vsprintf(strbuf, format, aptr);
va_end(aptr);
SetCtrlVal(ait,AIT_STDIO,strbuf);
if (gLog) {
flog = fopen ("stdio.log", "a");
fprintf (flog, "%s", strbuf);
fclose (flog);
}
return(ret);
}
static int timeout=0;
int CVICALLBACK SetTimeoutCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_TIMER_TICK:
timeout=1;
printf("#### Timeout\n");
break;
}
return 0;
}
static void start_timer (double tout) {
timeout = 0;
SetCtrlAttribute (ait, AIT_TIMER, ATTR_INTERVAL, tout);
SetCtrlAttribute (ait, AIT_TIMER, ATTR_ENABLED, 1);
}
static void stop_timer ( void ) {
SetCtrlAttribute (ait, AIT_TIMER, ATTR_ENABLED, 0);
//DRSSetTimeout();
}
void CVICALLBACK EndOfThread ( CmtThreadPoolHandle poolhandle,
CmtThreadFunctionID functionID, unsigned int event,
int value, void *callbackData ) {
daq_on=0;
//SetDimming(0);
printf("End of Thread \n");
return ;
}
int AitInit() {
InitializeConnection();
return 0;
}
int AitValidEvent() {
return 1;
};
int AitToFile(FILE *fp, int n) {
const int bsize=10000 ;
unsigned short a[bsize] ;
unsigned short buffer[2]={0x1};
buffer[1] = (unsigned short)(n*CHANNELS*2);
for (int eventNum = 0; eventNum < n; eventNum++) {
for (int channel = 0; channel < CHANNELS; channel++) {
int index = channel+ CHANNELS * eventNum;
if (index<bsize)
a[index] = ExtractAdcData(eventNum, channel);
}
}
fwrite(buffer, 2*sizeof(short),1,fp);
return fwrite(a, 1,buffer[1],fp);
};
int AitFillHistograms(int events) {
ushort rawAdcData = 0;
ushort adcData = 0;
int channelReceived = 0;
int channelExpected = 0;
bool includeSaturated = 0; // cbIncludeSaturated.Checked;
ushort max[CHANNELS];
ushort min[CHANNELS];
ushort average[CHANNELS];
int total[CHANNELS];
for (int i = 0; i < CHANNELS; i++) {
min[i] = 0xFFFF;
max[i] = 0;
total[i] = 0;
}
double threshold, xysumcut;
GetCtrlVal (ait, AIT_ADCTHRESHOLD, &threshold);
GetCtrlVal (ait, AIT_XYCUT, &xysumcut);
for (int eventNum = 0; eventNum < events; eventNum++) {
int sum = 0;
double a[4]= {0,0,0,0} ;
for (int channel = 0; channel < CHANNELS; channel++) {
rawAdcData = ExtractAdcData(eventNum, channel);
if (addChannelNum == true) {
channelReceived = (rawAdcData >> 12) & 0xF;
channelExpected = (channel & 0xF);
if (channelReceived != channelExpected) {
AddMessage("ERROR in Event %d : Expected channel %d, received %d -ANALYSIS STOPPED", eventNum, channelExpected, channelReceived);
//EnableRegisterScanTimer(true);
return eventNum;
}
}
adcData = (ushort)(rawAdcData & 0x0FFF); // remove channel number
//if ((includeSaturated == true) || ((includeSaturated == false) && (adcData < (ADCMAX - 2))))
if (adcData>threshold) H1D_Fill(channel, adcData,1);
a[channel]=adcData;
total[channel] = total[channel] + adcData;
if (adcData > max[channel])
max[channel] = adcData;
else if (adcData < min[channel])
min[channel] = adcData;
sum += adcData;
}
if (sum>threshold) {
H1D_Fill(10, sum, 1 );
double x = a[0]/(a[0]+a[1]);
double y = a[2]/(a[2]+a[3]);
if (sum>xysumcut) H2D_Fill(0, x, y , 1 );
}
histogramTotalEvents++;
}
//tbAdcStatistics.Clear();
for (int channel = 0; channel < CHANNELS; channel++) {
average[channel] = (ushort)(total[channel] / events);
if (verbose) AddMessage(" {channel:%d} : {min:0x%d} {max:0x%d} {max-min:%d} {average:%d}\n", channel + 1, min[channel], max[channel], max[channel] - min[channel], average[channel]);
//if (channel < (CHANNELS - 1))
// tbAdcStatistics.AppendText(Environment.NewLine);
}
//SetTextboxToTop(tbAdcStatistics);
return 1;
};
int CVICALLBACK RefreshGraphs (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_TIMER_TICK:
// if (!daq_on ) return 0;
case EVENT_COMMIT: {
int ch=0;
int logy=0;
int updateplots=0;
GetCtrlVal(ait,AIT_CH, &ch);
GetCtrlVal(ait,AIT_LOGY, &logy);
GetCtrlVal(ait,AIT_UPDATEPLOTS, &updateplots);
if (!updateplots) return 0;
if (logy){
SetCtrlAttribute (ait, AIT_GRAPH, ATTR_YMAP_MODE, VAL_LOG);
SetCtrlAttribute (ait, AIT_GRAPHSUM, ATTR_YMAP_MODE, VAL_LOG);
} else {
SetCtrlAttribute (ait, AIT_GRAPH, ATTR_YMAP_MODE, VAL_LINEAR);
SetCtrlAttribute (ait, AIT_GRAPHSUM, ATTR_YMAP_MODE, VAL_LINEAR);
}
H1D_Draw(ch,ait,AIT_GRAPH,&plothandle[0]);
H1D_Draw(10,ait,AIT_GRAPHSUM,&plothandle[1]);
H2D_Draw(0,ait,AIT_GRAPHXY,&plothandle[2]);
}
break;
}
return 0;
}
int CVICALLBACK daq(void *functionData) {
int neve;
char filename[0xff];
char fname[0xff];
char pname[0xff];
int pfreq;
int enabledoutput;
int neveold = 0;
double rate;
int *args = (int *) functionData;
GetCtrlVal(ait, AIT_FILENAME, fname );
GetCtrlVal(ait, AIT_PATHNAME, pname );
sprintf(filename,"%s/%s", pname, fname);
GetCtrlVal(ait,AIT_NEVE, &neve);
GetCtrlVal(ait,AIT_DEBUG, &verbose);
GetCtrlVal(ait,AIT_PFREQ, &pfreq);
GetCtrlVal(ait,AIT_ENABLEDOUTPUT, &enabledoutput);
int range=0;
int nch = range;
GetCtrlVal(ait,AIT_MAX, &range);
if (range>512) nch = 512;
for (int i=0; i<4; i++) {
char name[0xFF];
sprintf(name,"adc%d", i);
H1D_Init(i, name,name, range, 0 , range);
H1D_SetTitleX(0,"ADC");
H1D_SetTitleY(0,"N");
}
H1D_Init(10, "adcsum","adcsum", range, 0 , 4*range);
H1D_SetTitleX(0,"ADC");
H1D_SetTitleY(0,"N");
H2D_Init(0, "cog","Center of gravity", 256, 0 ,1, 256, 0 ,1);
H2D_SetTitleX(0,"x");
H2D_SetTitleY(0,"y");
FILE *fp= NULL;
if (enabledoutput) {
if (args[0]) fp = fopen(filename,"wb");
else fp = fopen(filename,"ab");
}
time_t t=0,told=0, tstart=0;
if (!AitInit()) {
ReadRegisters();
// Update UI
int csrDetector = ReadSD4Register(ADDR_CSR_DETECTOR);
int value = ((GetBit(csrDetector, BIT_CSR_DET_ADCGAIN2) ? 1 : 0) << 1) |
((GetBit(csrDetector, BIT_CSR_DET_ADCGAIN1) ? 1 : 0) << 0);
SetCtrlVal (ait, AIT_GETADCGAIN, value);
double valued = GetThreshold();
SetCtrlVal (ait, AIT_GETADCTHRESHOLD, valued);
valued = GetIntegrationTime();
SetCtrlVal (ait, AIT_GETADCINTEGRATIONTIME, valued);
valued = GetHvVoltage(ADDR_HV_VMON);
SetCtrlVal (ait, AIT_BIASMON, valued);
value =
((GetBit(csrDetector, BIT_CSR_DET_SUMGAIN4) ? 1 : 0) << 3) |
((GetBit(csrDetector, BIT_CSR_DET_SUMGAIN3) ? 1 : 0) << 2) |
((GetBit(csrDetector, BIT_CSR_DET_SUMGAIN2) ? 1 : 0) << 1) |
((GetBit(csrDetector, BIT_CSR_DET_SUMGAIN1) ? 1 : 0) << 0);
SetCtrlVal (ait, AIT_GETADCSUMGAIN, value);
RefreshGraphs (ait, 0 , EVENT_COMMIT ,NULL, 0, 0 );
daq_on=1;
//RefreshGraphs (ait, 0 , EVENT_TIMER_TICK ,NULL, 0, 0 );
time(&tstart);
told=tstart;
int i=0;
for (i=0; i<neve; i++) {
start_timer(1);// 1 s timeout
// Set ADC reset
ResetAdc(true);
// Clear ADC reset
ResetAdc(false);
int eventsAcquired = Acquire(pfreq);
stop_timer();
if (!daq_on) break;
if (timeout) {
i--;
printf("INFO Timeout\n");
continue;
}
int isvalid =1;
if (eventsAcquired < 1) {
printf("Acquired events %d\n", eventsAcquired);
isvalid = 0;
} else {
AitFillHistograms(eventsAcquired);
if (verbose) ShowEvent(1);
}
int nb = ( isvalid && fp ) ? AitToFile( fp , pfreq ) : 0;
SetCtrlVal(ait,AIT_CEVE,i);
if (!isvalid) i--;
time(&t);
if (t!=told ) {
rate = (i-neveold);
printf("%d events in %2.2f min (%d s) Rate %f Hz %s ",i+1, (double)(t-tstart)/60.,(t-tstart), rate , ctime(&t));
neveold = i;
RefreshGraphs (ait, 0 , EVENT_COMMIT ,NULL, 0, 0 );
double daqBlocksize = GetAdcEventSize() * pfreq * 2.0;
double daqTimeMs = BlockTransferTime();
double daqTransferRate = daqBlocksize / daqTimeMs;
SetCtrlVal(ait,AIT_DAQBLOCKSIZE, daqBlocksize);
SetCtrlVal(ait,AIT_DAQTIMEMS,daqTimeMs);
SetCtrlVal(ait,AIT_DAQTRANSFERRATE,daqTransferRate);
}
told=t;
}
time(&t);
printf("%d events in %2.2f min (%d s) %s",i+1, (double)(t-tstart)/60.,t-tstart, ctime(&t));
}
if (fp) fclose(fp);
RefreshGraphs (ait, 0 , EVENT_TIMER_TICK ,NULL, 0, 0 );
return 0;
}
int CVICALLBACK scan(void *functionData) {
int dx[3]={0,0,0};
int nx[3]={0,0,0};
int x0[3]={0,0,0};
int ix[3]={0,0,0};
int idx[3]={0,0,0};
unsigned short size;
unsigned short posrec={0x2};
unsigned short runbuf={0x3};
int n[3];
char filename[0xFF];
char fname[0xff];
char pname[0xff];
int enabledoutput;
FILE *fp;
GetCtrlVal(ait, AIT_FILENAME, fname );
GetCtrlVal(ait, AIT_PATHNAME, pname );
sprintf(filename,"%s/%s", pname, fname);
GetCtrlVal(ait,AIT_ENABLEDOUTPUT, &enabledoutput);
int fsize;
if ( GetFileInfo(filename,&fsize) ) {
MessagePopup ("Warning", "File exist. Remove it first or choose another file");
return 0;
}
GetCtrlVal(xyscan, SCAN_STEPX, &dx[0]);
GetCtrlVal(xyscan, SCAN_STEPY, &dx[1]);
GetCtrlVal(xyscan, SCAN_NSTEPSX, &nx[0]);
GetCtrlVal(xyscan, SCAN_NSTEPSY, &nx[1]);
GetCtrlVal(xyscan, SCAN_STARTX, &x0[0]);
GetCtrlVal(xyscan, SCAN_STARTY, &x0[1]);
if (enabledoutput) {
fp = fopen(filename,"ab");
if (fp) {
size=36;
fwrite(&runbuf, sizeof(unsigned short),1 ,fp);
fwrite(&size , sizeof(unsigned short),1 ,fp);
fwrite(x0 , 1,4*3 ,fp);
fwrite(dx , 1,4*3 ,fp);
fwrite(nx , 1,4*3 ,fp);
fclose(fp);
}
}
for (int j=0; j<nx[1]; j++) {
SetCtrlVal (xyscan, SCAN_IY, j);
ix[1]= x0[1]+j*dx[1];
#ifdef MIKRO
MIKRO_MoveTo(2,ix[1]);
MIKRO_GetPosition(2,&n[1]);
SetCtrlVal (xyscan, SCAN_YP, n[1]);
#endif
for (int i=0; i<nx[0]; i++) {
SetCtrlVal (xyscan, SCAN_IX, i);
ix[0]= x0[0]+i*dx[0];
#ifdef MIKRO
MIKRO_MoveTo(1,ix[0]);
MIKRO_GetPosition(1,&n[0]);
SetCtrlVal (xyscan, SCAN_XP, n[0]);
if (enabledoutput) {
fp = fopen(filename,"ab");
if (fp) {
time_t mtime;
idx[0]=i;
idx[1]=j;
size=24+sizeof(mtime);
fwrite(&posrec, sizeof(unsigned short),1 ,fp);
fwrite(&size , sizeof(unsigned short),1 ,fp);
fwrite(n , 1,4*3 ,fp);
fwrite(idx , 1,4*3 ,fp);
time(&mtime);
fwrite(&mtime , sizeof(time_t),1 ,fp);
fclose(fp);
}
}
#endif
int newfile=0;
daq(&newfile);
if (!daq_on) break;
}
if (!daq_on) break;
}
return 0;
}
int main (int argc, char *argv[]) {
short port;
if (InitCVIRTE (0, argv, 0) == 0)
return -1; /* out of memory */
if ((ait = LoadPanel (0, "AitGui.uir", AIT)) < 0)
return -1;
if ((xyscan = LoadPanel (0, "XYSCAN.uir", SCAN)) < 0)
return -1;
SetStdioPort (CVI_STDIO_WINDOW);
SetSleepPolicy(VAL_SLEEP_MORE);
CmtNewThreadPool (MAX_THREADS, &poolHandle);
DisplayPanel (ait);
DisplayPanel (xyscan);
AitInit();
#ifdef MIKRO
GetCtrlVal(xyscan, SCAN_PORT, &port);
if (MIKRO_Open (port)) MessagePopup ("Error", "Mikro Port Not found !\n Change in the GUI") ;
MIKRO_Init(1,0);
MIKRO_Init(2,0);
#endif
RunUserInterface ();
#ifdef MIKRO
MIKRO_Close ();
#endif
DiscardPanel (ait);
DiscardPanel (xyscan);
return 0;
}
int CVICALLBACK StopCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT:
daq_on=0;
break;
}
return 0;
}
int CVICALLBACK StartCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
ThreadFunctionPtr mythread = NULL;
switch (event) {
case EVENT_COMMIT:
controlID= control;
if (panel == ait && control == AIT_START) {
mythread = daq;
}
if (panel == xyscan && control == SCAN_SCAN) mythread = scan;
if (mythread!=NULL) {
printf("New Thread panel=%d button=%d\n", panel, control);
// SetDimming(1);
CmtScheduleThreadPoolFunctionAdv (poolHandle, mythread, &controlID,
DEFAULT_THREAD_PRIORITY,
EndOfThread,
EVENT_TP_THREAD_FUNCTION_END,
NULL, RUN_IN_SCHEDULED_THREAD,
&tfID);
}
break;
}
return 0;
}
int CVICALLBACK ExitCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT:
QuitUserInterface (0);
break;
}
return 0;
}
int CVICALLBACK ReadCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT:
ReadRegisters();
break;
}
return 0;
}
int CVICALLBACK ChangeChannelCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
int ch=0;
switch (event) {
case EVENT_COMMIT:
int logy=0;
GetCtrlVal(ait,AIT_CH, &ch);
GetCtrlVal(ait,AIT_LOGY, &logy);
if (logy){
SetCtrlAttribute (ait, AIT_GRAPH, ATTR_YMAP_MODE, VAL_LOG);
SetCtrlAttribute (ait, AIT_GRAPHSUM, ATTR_YMAP_MODE, VAL_LOG);
} else {
SetCtrlAttribute (ait, AIT_GRAPH, ATTR_YMAP_MODE, VAL_LINEAR);
SetCtrlAttribute (ait, AIT_GRAPHSUM, ATTR_YMAP_MODE, VAL_LINEAR);
}
H1D_Draw(ch,ait,AIT_GRAPH,&plothandle[0]);
break;
}
return 0;
}
int CVICALLBACK InitCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT:
AitInit();
break;
}
return 0;
}
int CVICALLBACK QuickCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT:
switch (control) {
case AIT_QUICKSETUP_1:
QuickSetupContinuous();
SetCtrlVal(ait,AIT_TRGTYPE, 0);
break;
case AIT_QUICKSETUP_2:
QuickSetupDiscriminator();
SetCtrlVal(ait,AIT_TRGTYPE, 2);
break;
case AIT_QUICKSETUP_3:
QuickSetupTriggerOff();
break;
}
float bias = GetHvVoltage(ADDR_HV_VMON);
SetCtrlVal (panel, AIT_BIASMON, bias);
double value = GetIntegrationTime();
SetCtrlVal (panel, AIT_GETADCINTEGRATIONTIME, value);
value = GetThreshold();
SetCtrlVal (panel, AIT_GETADCTHRESHOLD, value);
int csrDetector = ReadSD4Register(ADDR_CSR_DETECTOR);
int ivalue = ((GetBit(csrDetector, BIT_CSR_DET_ADCGAIN2) ? 1 : 0) << 1) |
((GetBit(csrDetector, BIT_CSR_DET_ADCGAIN1) ? 1 : 0) << 0);
SetCtrlVal (panel, AIT_GETADCGAIN, ivalue);
ivalue =
((GetBit(csrDetector, BIT_CSR_DET_SUMGAIN4) ? 1 : 0) << 3) |
((GetBit(csrDetector, BIT_CSR_DET_SUMGAIN3) ? 1 : 0) << 2) |
((GetBit(csrDetector, BIT_CSR_DET_SUMGAIN2) ? 1 : 0) << 1) |
((GetBit(csrDetector, BIT_CSR_DET_SUMGAIN1) ? 1 : 0) << 0);
SetCtrlVal (panel, AIT_GETADCSUMGAIN, ivalue);
break;
}
return 0;
}
int CVICALLBACK MoveStageCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
int axis=0, step=1000, direction=1;
switch (event) {
case EVENT_COMMIT:
if (panel == xyscan) {
switch (control) {
case SCAN_BR :
axis = 1;
direction = 1;
GetCtrlVal(panel, SCAN_STEPX, &step);
break;
case SCAN_BL :
axis = 1;
direction = -1;
GetCtrlVal(panel, SCAN_STEPX, &step);
break;
case SCAN_BU :
axis = 2;
direction = 1;
GetCtrlVal(panel, SCAN_STEPY, &step);
break;
case SCAN_BD :
axis = 2;
direction = -1;
GetCtrlVal(panel, SCAN_STEPY, &step);
break;
}
#ifdef MIKRO
{
int n=0;
MIKRO_MoveFor(axis, direction*step );
MIKRO_GetPosition(axis,&n);
if (axis == 1) SetCtrlVal (panel, SCAN_XP, n);
if (axis == 2) SetCtrlVal (panel, SCAN_YP, n);
}
#endif // MIKRO
}
break;
}
return 0;
}
int CVICALLBACK GoXCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
int n2;
switch (event) {
case EVENT_COMMIT:
GetCtrlVal (panel, SCAN_XG, &n2);
#ifdef MIKRO
MIKRO_MoveTo(1,n2);
MIKRO_GetPosition(1,&n2);
#endif
SetCtrlVal (panel, SCAN_XP, n2);
break;
}
return 0;
}
int CVICALLBACK GoYCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
int n2;
switch (event) {
case EVENT_COMMIT:
GetCtrlVal (panel, SCAN_YG, &n2);
#ifdef MIKRO
MIKRO_MoveTo(2,n2);
MIKRO_GetPosition(2,&n2);
#endif
SetCtrlVal (panel, SCAN_YP, n2);
break;
}
return 0;
}
int CVICALLBACK GetCurrentPositionCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT: {
#ifdef MIKRO
int n[2];
MIKRO_GetPosition(1,&n[0]);
SetCtrlVal (panel, SCAN_XP, n[0]);
MIKRO_GetPosition(2,&n[1]);
SetCtrlVal (panel, SCAN_YP, n[1]);
#endif
break;
}
}
return 0;
}
int CVICALLBACK HomeCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT:
#ifdef MIKRO
MIKRO_ReferenceMove(1);
MIKRO_ReferenceMove(2);
GetCurrentPositionCB(panel, control, event, NULL, 0, 0);
#endif
break;
}
return 0;
}
int CVICALLBACK SetBiasCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
double bias=0;
switch (event) {
case EVENT_COMMIT:
GetCtrlVal (panel, AIT_BIAS, &bias);
SetHvVoltage(ADDR_HV_CTRL, bias);
bias = GetHvVoltage(ADDR_HV_VMON);
SetCtrlVal (panel, AIT_BIASMON, bias);
break;
}
return 0;
}
int CVICALLBACK SetHvOnCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
int state=0;
double bias;
switch (event) {
case EVENT_COMMIT:
GetCtrlVal (panel, control, &state);
if (state) SetHvOn(true);
else SetHvOn(false);
bias = GetHvVoltage(ADDR_HV_VMON);
SetCtrlVal (panel, AIT_BIASMON, bias);
break;
}
return 0;
}
int CVICALLBACK SetAdcIntegrationTimeCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT: {
double value;
GetCtrlVal (panel, AIT_ADCINTEGRATIONTIME, &value);
SetIntegrationTime(value);
value = GetIntegrationTime();
SetCtrlVal (panel, AIT_GETADCINTEGRATIONTIME, value);
}
break;
}
return 0;
}
int CVICALLBACK SetAdcThresholdCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT: {
double value;
GetCtrlVal (panel, AIT_ADCTHRESHOLD, &value);
SetThreshold(value);
value = GetThreshold();
SetCtrlVal (panel, AIT_GETADCTHRESHOLD, value);
}
break;
}
return 0;
}
int CVICALLBACK SetAdcGainCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT: {
int value;
GetCtrlVal (panel, AIT_ADCGAIN, &value);
SetAdcGain(value);
int csrDetector = ReadSD4Register(ADDR_CSR_DETECTOR);
value = ((GetBit(csrDetector, BIT_CSR_DET_ADCGAIN2) ? 1 : 0) << 1) |
((GetBit(csrDetector, BIT_CSR_DET_ADCGAIN1) ? 1 : 0) << 0);
SetCtrlVal (panel, AIT_GETADCGAIN, value);
}
break;
}
return 0;
}
int CVICALLBACK SetAdcSumGainCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT:{
int value;
GetCtrlVal (panel, AIT_ADCSUMGAIN, &value);
SetSumGain(value);
int csrDetector = ReadSD4Register(ADDR_CSR_DETECTOR);
value =
((GetBit(csrDetector, BIT_CSR_DET_SUMGAIN4) ? 1 : 0) << 3) |
((GetBit(csrDetector, BIT_CSR_DET_SUMGAIN3) ? 1 : 0) << 2) |
((GetBit(csrDetector, BIT_CSR_DET_SUMGAIN2) ? 1 : 0) << 1) |
((GetBit(csrDetector, BIT_CSR_DET_SUMGAIN1) ? 1 : 0) << 0);
SetCtrlVal (panel, AIT_GETADCSUMGAIN, value);
}
break;
}
return 0;
}
int CVICALLBACK SetDiscriminatorTypeCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT:{
int trgtype;
GetCtrlVal(ait,AIT_TRGTYPE, &trgtype);
EnableTrigger(trgtype);
}
break;
}
return 0;
}
int CVICALLBACK ResetCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT:
ReconfigureDevice() ;
ReconnectDevice();
//ResetDevice() ;
break;
}
return 0;
}
int CVICALLBACK OpenScanCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT:
DisplayPanel (xyscan);
break;
}
return 0;
}
int CVICALLBACK OpenMainCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT:
DisplayPanel (ait);
break;
}
return 0;
}

Subversion Repositories f9daq

(root)//cvi/instr/AitSipmDAQ/AitGui.c – Rev 212